System and method of enabling access to remote information handling systems

ABSTRACT

A system and method of enabling access to remote information handling systems is disclosed. In one form, a method of enabling an initialization of an information handling system is disclosed. The method can include receiving a request to initialize a remote information handling system, and determining an access information operable to enable an initialization sequence of the remote information handling system. The access information can be configured to enable an initialization of the remote information handling system. The method can also include communicating the access information via a network to the remote information system.

FIELD OF THE DISCLOSURE

This disclosure relates generally to information handling systems, andmore particularly to a system and method of enabling access to remoteinformation handling systems.

BACKGROUND

As the value and use of information continues to increase, individualsand businesses seek additional ways to process and store information.One option is an information handling system. An information handlingsystem generally processes, compiles, stores, and/or communicatesinformation or data for business, personal, or other purposes. Becausetechnology and information handling needs and requirements can varybetween different applications, information handling systems can alsovary regarding what information is handled, how the information ishandled, how much information is processed, stored, or communicated, andhow quickly and efficiently the information can be processed, stored, orcommunicated. The variations in information handling systems allow forinformation handling systems to be general or configured for a specificuser or specific use such as financial transaction processing, airlinereservations, enterprise data storage, or global communications. Inaddition, information handling systems can be configured to use avariety of hardware and software components that can be configured toprocess, store, and communicate information and can include one or morecomputer systems, data storage systems, and networking systems.

BRIEF DESCRIPTION OF THE DRAWINGS

It will be appreciated that for simplicity and clarity of illustration,elements illustrated in the Figures have not necessarily been drawn toscale. For example, the dimensions of some of the elements areexaggerated relative to other elements. Embodiments incorporatingteachings of the present disclosure are shown and described with respectto the drawings presented herein, in which:

FIG. 1 illustrates a block diagram of an information handling systemaccording to one aspect of the disclosure;

FIG. 2 illustrates a block diagram of an access system operable toenable an initialization sequence a remote information handling systemaccording to one aspect of the disclosure;

FIG. 3 illustrates a block diagram of an access system operable toenable initialization sequences within multiple remote informationhandling systems according to one aspect of the disclosure; and

FIG. 4 illustrates a flow diagram of a method of enabling aninitialization sequence of a remote information handling systemaccording to one aspect of the disclosure.

The use of the same reference symbols in different drawings indicatessimilar or identical items.

DETAILED DESCRIPTION OF DRAWINGS

The following description in combination with the Figures is provided toassist in understanding the teachings disclosed herein. The followingdiscussion will focus on specific implementations and embodiments of theteachings. This focus is provided to assist in describing the teachingsand should not be interpreted as a limitation on the scope orapplicability of the teachings. However, other teachings can certainlybe utilized in this application. The teachings can also be utilized inother applications and with several different types of architecturessuch as distributed computing architectures, client/serverarchitectures, or middleware server architectures and associatedcomponents.

For purposes of this disclosure, an information handling system caninclude any instrumentality or aggregate of instrumentalities operableto compute, classify, process, transmit, receive, retrieve, originate,switch, store, display, manifest, detect, record, reproduce, handle, orutilize any form of information, intelligence, or data for business,scientific, control, entertainment, or other purposes. For example, aninformation handling system can be a personal computer, a PDA, aconsumer electronic device, a wireless communication device, a disklesscomputer system, a thin client, a network server or storage device, aswitch router, wireless router, or other network communication device,or any other suitable device and can vary in size, shape, performance,functionality, and price. The information handling system can includememory, one or more processing resources such as a central processingunit (CPU) or hardware or software control logic. Additional componentsof the information handling system can include one or more storagedevices, one or more communications ports for communicating withexternal devices as well as various input and output (I/O) devices, suchas a keyboard, a mouse, and a video display. The information handlingsystem can also include one or more buses operable to transmitcommunications between the various hardware components.

According to one aspect of the disclosure, a method of enabling aninitialization of an information handling system is disclosed. Themethod can include receiving a request to initialize a remoteinformation handling system, and determining an access informationoperable to enable an initialization sequence of the remote informationhandling system. The access information can be configured to enable aninitialization of the remote information handling system. The method canalso include communicating the access information via a network to theremote information system

According to another aspect of the disclosure, an information handlingsystem is disclosed. The information handling system can include acommunication module operable to receive a communication from amanagement access terminal operable to communicate an access informationconfigured to enable use of an initialization sequence. The informationhandling system can also include a processor operable to employ aninitialization process operable to validate use of the initializationsequence using the access information. The information handling systemcan further include a memory operably coupled to the processor andaccessible by the initialization process, According to one aspect, thememory can be further operable to store the access information receivedby the communication module.

According to a further aspect of the disclosure, a method of enablinginitialization of an information handling system is disclosed. Themethod can include receiving a communication including an accessinformation operable to enable an initialization sequence and storingthe access information within a memory accessible in association withusing the initialization sequence. The method can also include receivinga request to initiate the initialization sequence, and determining alocation storing the access information. The method can further includevalidating the access information, and enabling the initializationsequence in response to the validation.

FIG. 1 illustrates a block diagram of an exemplary embodiment of aninformation handling system, generally designated at 100. In one form,the information handling system 100 can be a computer system such as aserver. As shown in FIG. 1, the information handling system 100 caninclude a first physical processor 102 coupled to a first host bus 104and can further include additional processors generally designated asphysical processor 106 coupled to a second host bus 108. The firstphysical processor 102 can be coupled to a chipset 110 via the firsthost bus 104. Further, the n^(th) physical processor 106 can be coupledto the chipset 110 via the second host bus 108. The chipset 110 cansupport multiple processors and can allow for simultaneous processing ofmultiple processors and support the exchange of information withininformation handling system 100 during multiple processing operations.

According to one aspect, the chipset 110 can be referred to as a memoryhub or a memory controller. For example, the chipset 110 can include adedicated bus to transfer data between first physical processor 102 andthe n^(th) physical processor 106. For example, the chipset 110including a chipset that can include a memory controller hub and aninput/output (I/O) controller hub. As a memory controller hub, thechipset 110 can function to access the first physical processor 102using first bus 104 and the n^(th) physical processor 106 using thesecond host bus 108. The chipset 110 can also be used as a memoryinterface for accessing memory 112 using a memory bus 114. In aparticular embodiment, the buses 104, 108, and 114 can be individualbuses or part of the same bus. The chipset 110 can also include buscontrol and can handle transfers between the buses 104, 108, and 114.

According to another aspect, the chipset 110 can include an applicationspecific chipset that connects to various buses, and integrates othersystem functions. For example, the chipset 110 can include using anIntel® Hub Architecture (IHA) chipset that can also include two parts, aGraphics and AGP Memory Controller Hub (GMCH) and an I/O Controller Hub(ICH). For example, an Intel 820E, an 815E chipset, an Intel 975Xchipset, an Intel G965 chipset, available from the Intel Corporation ofSanta Clara, Calif., or any combination thereof, can be used as at leasta portion of the chipset 110. The chipset 110 can also be packaged as anapplication specific integrated circuit (ASIC).

In one form, the chipset 110 can be coupled to a video graphicsinterface 122 using a third bus 124. In one form, the video graphicsinterface 122 can be a Peripheral Component Interconnect (PCI) Expressinterface operable to content to display within a video display unit126. Other graphics interfaces may also be used. The video graphicsinterface 122 can output a video display output 128 to the video displayunit 126. The video display unit 126 can include one or more types ofvideo displays such as a flat panel display (FPD), cathode ray tubedisplay (CRT) or other type of display device.

The information handling system 100 can also include an I/O interface130 that can be connected via an I/O bus 120 to the chipset 110. The I/Ointerface 130 and I/O bus 120 can include industry standard buses orproprietary buses and respective interfaces or controllers. For example,the I/O bus 120 can also include a PCI bus or a high speed PCI-Expressbus. In one embodiment, a PCI bus can be operated at approximately 66MHz and a PCI-Express bus can be operated at more than one (1) speed(e.g. 2.5 GHz and 5 GHz). PCI buses and PCI-Express buses can complywith industry standards for connecting and communicating between variousPCI-enabled hardware devices. Other buses can also be used inassociation with, or independent of, the I/O bus 120 including, but notlimited to, industry standard buses or proprietary buses, such asIndustry Standard Architecture (ISA), Small Computer Serial Interface(SCSI), Inter-Integrated Circuit (I²C), System Packet Interface (SPI),or Universal Serial buses (USBs).

In an alternate embodiment, the chipset 110 can be a chipset employing aNorthbridge/Southbridge chipset configuration (not illustrated). Forexample, a Northbridge portion of the chipset 110 can communicate withthe first physical processor 102 and can control interaction with thememory 112, the I/O bus 120 that can be operable as a PCI bus, andactivities for the video graphics interface 122. The Northbridge portioncan also communicate with the first physical processor 102 using firstbus 104 and the second bus 108 coupled to the n^(th) physical processor106. The chipset 110 can also include a Southbridge portion (notillustrated) of the chipset 110 and can handle I/O functions of thechipset 110. The Southbridge portion can manage the basic forms of I/Osuch as Universal Serial Bus (USB), serial I/O, audio outputs,Integrated Drive Electronics (IDE), and ISA I/O for the informationhandling system 100.

The information handling system 100 can further include a diskcontroller 132 coupled to the I/O bus 120, and connecting one or moreinternal disk drives such as a hard disk drive (HDD) 134 and an opticaldisk drive (ODD) 136 such as a Read/Write Compact Disk (R/W CD), aRead/Write Digital Video Disk (R/W DVD), a Read/Write mini-Digital VideoDisk (R/W mini-DVD), or other type of optical disk drive.

In one form, the information handling system 100 can include amanagement controller 138 coupled to the I/O interface 130. Themanagement controller 138 can access one or more I/O communicationdevices such as a network interface card, an Ethernet port, a LAN onMotherboard (LOM) interface, or any combination of communication devicesoperable to communicate information via the I/O interface 142 and anetwork 142 such an as the Internet or an Intranet. In one form, the I/Ointerface 142 can be operable to communicate data within an “in-band”communication such as public or semi-private connection. In other forms,the management controller 138 can be coupled to the I/O interface 130operable to communicate using a private connection or “out-of-band”network communication.

In one embodiment, the management controller 138 can include, or be usedin association with, a baseboard management controller (BMC), a trustedplatform module (TPM), integrated management controller (IMC), or anycombination thereof, operable to enable an initialization of theinformation handling system 100. For example, the management controller138 can employ a BMC that can include a specialized service processorthat can monitor operating states of the information handling system100, and can communicate information via the network 142. In one form,the network 142 can be an independent network connection that can beused to facilitate out-of-band network communications between amanagement terminal and the information handling system 100. The BMC canbe a part of the Intelligent Platform Management Interface (IPMI) andcan be located within a motherboard or system board. The BMC can be usedto authenticate an initialization request of the information handlingsystem 100 using access information communicated via the network 142from a terminal such as an administrative or system management terminal.

In another form, the management controller 138 can include or be used inassociation with a TPM that can include a specialized integratedcircuit. The TPM can be installed on a main system board or motherboardof the information handling system 100. Other locations can also beemployed. In one form, the TPM can be used to authenticate a use of theinformation handling system 100 and can store information specific tothe information handling system 100. For example, the TPM can storeaccess information that can include, for example, one or more encryptionkeys, access keys, digital certificates, system passwords, or anycombination thereof. The TPM can be used to minimize risk that data onthe information handling system 100 will be compromised by physicaltheft, or an attack by an external hacker.

In a further embodiment, the management controller 138 can also includeone or more volatile memory devices or modules operable to store accessinformation that can be accessed by the BIOS 140, the managementcontroller 138, or various other controllers, modules, or processes thatcan employ access information to validate use of an initializationsequence. In one form, the management controller 138 can be configuredto include a separate communication module (not illustrated) operable toreceive an “out-of-band” communication via the network 142.

During operation, the information handling system 100 can be remotelyaccessed via the network 142 and a remote terminal that can communicateaccess information to the information handling system 100. For example,the access information can include, one or more encryption keys, accesskeys, digital certificates, passwords, system passwords, or anycombination thereof. The access information can be communicated viain-band network traffic, out-of-band network traffic, or any combinationthereof.

Upon a request to initialize the information handling system 100, theaccess information stored within a memory can be accessed to validatethe request prior to initializing the information handling system 100.In one form, the BIOS 142, the management controller 144, or other typeof module or process, or any combination thereof, can be used to accessthe access information to validate the access information communicatedvia the network 142 in association with initializing the informationhandling system 100. As such, a system administrator can request areboot or initialization of the information handling system 100 from aterminal connect to other network 142, and the access information can becommunicated to the information handling system 100 and employed toauthenticate access and a valid initialization or system reboot can bedeployed. In this manner, a system administrator need not couple anexternal key or other form of digital media directly to the informationhandling system 100, or input a password directly into the informationhandling system 100 using a keyboard or other form if user input device,to reboot or initialize the information handling system 100.

FIG. 2 illustrates a block diagram of an access system operable toenable an initialization sequence a remote information handling systemaccording to one aspect of the disclosure. The access system,illustrated generally at 200, can include a management access terminal202 operable to be coupled to a remote information handling system 204to reboot or reinitialize the remote information handling system 204.The remote information handling system 204 can include the informationhandling system 100 illustrated in FIG. 1 or various other informationhandling systems operable to be coupled to the management accessterminal 202.

In one form, the remote information handling system 204 can also beconfigured to include various other components or devices including, butnot limited to, an initialization process 208 that can be employed by aprocessor such as first processor 102 illustrated in FIG. 1. In oneform, the information handling system 204 can also include a controller210 such as the management controller 138 illustrated in FIG. 1. Thecontroller 210 can include a memory 212 operable to store accessinformation that can be used by the initialization process 208 during aninitialization sequence or reboot of the remote information handlingsystem 204.

In a further form, the remote information handling system 204 can alsoinclude a NIC 214 communicatively coupled to a network 206 and operableto receive in-band network traffic communicated via a network 206. Theremote information handling system 204 can also include an out-of-bandNIC 216 operable to connect to a out-of-band network connection operableto communicate management network traffic 218 communicated by themanagement access terminal 202. The management access terminal 202 canalso include an access information resource 220 operable to store andoutput unique access data operable to enable management aninitialization of the remote information handling system 204.

During operation, the management access terminal 202 can communicateaccess information, such as one or more encryption keys, access keys,digital certificates, passwords, system passwords, or any combinationthereof, sufficient to enable an initialization or reboot of the remoteinformation handling system 204. For example, the management accessterminal 202 can format and communicate the access information to theremote information handling system 204 as an in-band or out-of-bandnetwork traffic communication. For example, the management accessterminal 202 can include header information, such as a machine accesscode (MAC) address of the out-of-band NIC 216, within the communicateddata packets operable to identify the data packet upon receipt at theremote information handling system 204 as being out-of-band networktraffic. As such, the out-of-band network traffic can be communicated asmanagement network traffic 218 using header information having adestination of the out-of-band NIC 216. The out-of-band NIC 216 canreceive the access information and the access information can becommunicated to the controller 210. The controller 210 can store theaccess information within the memory 212 or another accessible memorylocation operable to be used in association with the initializationprocess 208. In this manner, the access information can be used duringan initialization of the remote information handling system 204 upon arequest of the management access terminal 202 obviating the need tocouple an access key, USB key, or input a password or key informationdirectly to the remote information handling system 204.

In another form, the management access terminal 202 can communicate theaccess information using an in-band network traffic communication of thenetwork 206. For example, the management access terminal 202 can formatthe access information to include a MAC address of the NIC 214 and theaccess information can be communicated to the NIC 214. The NIC 214 canreceive the access information and couple the access information to theinitialization process 208. The initialization process 208 can in turncouple the access information to the controller 210 to store within thememory 212. However, in other forms, the access information can bestored within a memory accessible by the initialization process duringan initialization sequence to validate a request to initialize theremote information handling system 204.

FIG. 3 illustrates a block diagram of an access system operable toenable initialization sequences within multiple remote informationhandling systems according to one aspect of the disclosure. The accesssystem 300 can include a management access terminal 302 including accessinformation resource 304 operable to store access information that canbe used to enable an initialization or reboot of a remote informationhandling system. The management access terminal 302 can be used toinitialize or reboot a first remote system 306, a second remote system308, up to an n^(th) remote system 310, or any combination thereof. Inone form, the access information resource 304 can include one or moreone or more encryption keys, access keys, digital certificates,passwords, system passwords, and in one form, can be configured toinclude a single combination of access information that can be used toenable an initialization of one, two, or multiple remote systems 306,308, 310, or any combination thereof.

During use, the management access terminal 302 can be employed to accessone or more of the remote systems 306, 308, 310. For example, themanagement access terminal 302 can be used to install updates, configureparameters, initialize, reboot, or various other functions, that mayneed desired. The management access terminal 302 can communicate theaccess information obtained from the access information resource 304 toone or more of the remote systems 306, 308, 310 to enable initializationor rebooting of a specific system. In this manner, a user of themanagement access terminal 302 need not access each remote system 306,308, 310 directly to authorize an initialization sequence or reboot ofeach remote system 306, 308, 310.

According to one aspect, the access system 300 can be used to select amemory location or device to store the access information. In one form,a user of the management access terminal 302 can select a memory device,location, address, or any combination thereof, within one or more of theremote systems 306, 308, 310. For example, the first remote system 306can be operable to store the received access information within a memoryaccessible by the BIOS of the first remote system 306. Additionally, thesecond remote system 308 can be operable to store the access informationwithin the memory of a BMC, and the n^(th) remote system 310 can beoperable to employ the access information stored in association with anIMC. As such, the management access terminal 302 can be used toselectively load the access information and specify a memory location tostore the access information at each remote system 306, 308, 310. In themanner, each remote system 306, 308, 310 can be configured differentlyas desired and can access the access information from various memorydevices or locations thereby obviating the need for a user to directlyaccess a remote system and input a password or couple a physical devicethat can include an access key, password, etc.

FIG. 4 illustrates a flow diagram of a method of enabling aninitialization sequence of a remote information handling systemaccording to one aspect of the disclosure. FIG. 4 can be employed inwhole, or in part, by the information handling system 100 depicted inFIG. 1, the access system 200 described in FIG. 2, the access system 300illustrated in FIG. 3, or any other type of system, controller, device,module, processor, or any combination thereof, operable to employ all,or portions of, the method of FIG. 4. Additionally, the method can beembodied in various types of encoded logic including software, firmware,hardware, or other forms of digital storage mediums, computer readablemediums, or logic, or any combination thereof, operable to provide all,or portions, of the method of FIG. 4.

The method begins generally at block 400. At block 402, access to aroutine of a remote information handling system can be initiated and atdecision block 404, the method can determine if access to a routine or alocal system is desired. For example, a user may be directly accessing asystem, as such the access information can be obtained at block 406 andlocal access to the system can be enabled at block 408.

If at decision block 404, access to a remote system is desired, themethod can proceed to block 410 and obtains access information to becommunicated to the remote system. The method can then proceed to block412 and communicates the access information to the remote system. Themethod can then proceed to block 414 and the access information can bereceived at the remote system via network traffic. The method can thenproceed to decision block 416, and if the access information is receivedas out-of-band network traffic, the method can proceed to block 418 andthe access information can be extracted from the out-of-band networktraffic. The method can then proceed to block 422 as described below. Atdecision block 416, if the access information is not received within theout-of-band network traffic, the method can proceed to block 420 and theaccess information can be extracted from the in-band network traffic.The method can then proceed to block 422 and the access information canbe stored within a memory of the remote system. For example, the accessinformation can be stored within a BIOS memory, memory provided inassociation with a management controller, or any other type of memoryoperable to be accessed and used during an initialization of the remotesystem. In other forms, the access information can be received inassociation with a specified location or entry to store the accessinformation within a specific memory location or device of the remotesystem. As such, a specified location can be determined and the accessinformation can be stored within a memory as desired.

Upon storing the access information, the method can proceed to block 424and access to the access information can be enabled. For example, accesscan include notifying an initialization process that access informationhas been stored within a memory of the remote system. The method canproceed to block 426, and the remote system can be initialized or bootedusing the stored access information. For example, a user of a managementaccess terminal can request a reboot or initialization of the remotesystem. The method can then proceed to decision block 428, anddetermines if valid access information has been stored. For example, theremote system can employ a BIOS, BMS, IMC, TPM, during an initializationsequence that can be configured to enable access using a predetermined,or preinstalled access information, that may be encoded and stored to beused in association with validating a request to initialize the remotesystem. As such, at decision block 428, the stored access informationreceived via the network can be compared to the predetermined orpreinstalled access information. If valid access information is notprovided, the method can proceed to block 430 and an validation errormessage can be sent to the requester. The method can then proceed toblock 432 and access to initialize the remote system can be disabled,and the initialization sequence can be exited or terminated. The methodcan then proceed to block 436 and end.

If at decision block 428, the access information is validated, themethod can proceed to block 438 and the remote system can be initializedor rebooted. The method can then proceed to block 440 access to theremote system can be enabled and, at decision block 442, if access isnot complete, the method can proceed to block 440. If at decision block442, access is complete, the method can proceed to block 444 and theaccess information stored within the memory can be removed or cleared.For example, an initialization sequence can be configured to clear amemory location or buffer that may have been used to store the accessinformation. As such, the memory location can be cleared and the methodcan proceed to block 446 and access to the remote system can bedisabled. The method can then proceed to block 436 and end. In thismanner, access information can be communicated to one or more remotesystems via an in-band or out-of-band network, and the remote system canbe initialized or rebooted as desired. As such, a user or administratorneed not be physically located at the remote system to enable managementaccess to the system, reinitialize the system, reconfigure the system,create a virtual client, input a passkey or password, or any other typeof information directly to the remote system. Although illustrated as amethod of enabling access to initialize or reboot an informationhandling system from a remote location, it should be understood thatother functions of an information handling system that may require useof access information can be validated or enabled using the method ofFIG. 4.

Although only a few exemplary embodiments have been described in detailabove, those skilled in the art will readily appreciate that manymodifications are possible in the exemplary embodiments withoutmaterially departing from the novel teachings and advantages of theembodiments of the present disclosure. Accordingly, all suchmodifications are intended to be included within the scope of theembodiments of the present disclosure as defined in the followingclaims. In the claims, means-plus-function clauses are intended to coverthe structures described herein as performing the recited function andnot only structural equivalents, but also equivalent structures.

1. A method of enabling an initialization of an information handlingsystem comprising: receiving a request to initialize a remoteinformation handling system; determining an access information operableto enable an initialization sequence of the remote information handlingsystem, the access information configured to enable an initialization ofthe remote information handling system, wherein the access informationincludes one or more encryption keys, access keys, or any combinationthereof; communicating the access information via a network to theremote information handling system; receiving the access information atthe remote information handling system; storing the access informationwithin a memory of the remote information handling system; validatingthe access information; if the access information is validated: enablingthe initialization sequence in response to the validation; initializingthe remote information handling system using the stored accessinformation; and removing the stored access information from the memoryonly when the access information is validated and in response toinitializing the remote information handling system; if the accessinformation is not validated: sending a validation error message to arequester of the request to initialize the remote information handlingsystem; and disabling access to initialize the remote informationhandling system; determining access information of a plurality of remoteinformation handling systems; communicating the access information to afirst remote information handling system of the plurality of informationhandling systems, the access information including a first accessinformation; and communicating the first access information to a secondremote information handling system of the plurality of informationhandling systems.
 2. The method of claim 1, further comprising:determining a location in the memory to store the access informationwithin the remote information handling system; and storing the accessinformation at the location in the memory.
 3. The method of claim 1,further comprising: determining an access key of the remote informationhandling system; determining a system password of the remote informationhandling system; and communicating the access key and the password asthe access information to the remote information handling system.
 4. Theinformation handling system of claim 1, further comprising: formattingthe access information as in-band network traffic; and communicating theaccess information within an in-band network traffic communication. 5.The method of claim 1, further comprising: formatting the accessinformation as out-of-band network traffic; and communicating the accessinformation within an out-of-band network traffic communication.
 6. Themethod of claim 1, further comprising: receiving the communication atthe remote information handling system; determining if the communicationincludes the access information within an in-band network trafficcommunication or out-of-band network traffic communication; andextracting the access information from the communication.
 7. The methodof claim 1, further comprising: receiving a request to store the accessinformation in within the memory of the remote information handlingsystem; and communicating a reference to the memory in association withthe access information.
 8. The method of claim 7, further comprising:receiving the access information and the reference at the remoteinformation handling system; and determining the memory using thereference.
 9. An information handling system comprising: a communicationmodule operable to receive a communication from a management accessterminal operable to communicate access information to a plurality ofremote information handling systems, the access information configuredto be used by the plurality of remote information handling systems toselectively enable an initialization sequence of each of the pluralityof remote information handling system, wherein the access informationincludes a machine access code address of a network interface cardassociated with the communication module; a processor operable to employan initialization process operable to validate use of the initializationsequence using the access information, if the access information isvalidated the processor is further operable to enable the initializationsequence and to remove the access information only when the accessinformation is validated and in response to initializing the remoteinformation handling system, and otherwise the processor is operable tosend a validation error message to a requester of the initializationprocess, and to disable access to the information handling system; and amemory operably coupled to the processor and accessible by theinitialization process, the memory further operable to store the accessinformation received by the communication module.
 10. The informationhandling system of claim 9, further comprising: a management controlleroperably coupled to the communication module and operable to initiatethe initialization process; and wherein the initialization process isoperable to access an initialization sequence operable to be enabledupon validating the access information.
 11. The information handlingsystem of claim 9, further comprising the processor operable toselectively store the access information within the memory as identifiedby a reference input at the management terminal in association withcommunicating the access information.
 12. The information handlingsystem of claim 9, wherein the communication module includes anout-of-band network communication module operable to receive the accessinformation via an out-of-band network traffic communication includingthe access information.
 13. The information handling system of claim 9,wherein the communication module includes an in-band networkcommunication module operable to receive an in-band network trafficcommunication including the access information.
 14. A method of enablinginitialization of an information handling system comprising: receiving acommunication including an access information operable to enable aninitialization sequence, wherein the access information includes amachine access code address of a network interface card; storing theaccess information within a memory accessible in association with usingthe initialization sequence; receiving a request to initiate theinitialization sequence; determining a location storing the accessinformation; validating the access information; if the accessinformation is validated: enabling the initialization sequence inresponse to the validation; initializing the remote information handlingsystem using the access information; and removing the access informationfrom the memory only when the access information is validated and inresponse to initializing the remote information handling system; if theaccess information is not validated: sending a validation error messageto a requester of the request to initialize the remote informationhandling system; and disabling access to initialize the remoteinformation handling system; receiving the access information inassociation with a communication of the access information to aplurality of remote information handling systems; and enabling use ofthe access information to enable an initialization sequence, wherein theaccess information is configured to be used by the plurality of remoteinformation handling systems to selectively enable an initializationsequence of each of the plurality of remote information handlingsystems.
 15. The method of claim 14, further comprising: determining anaccess key of the remote information handling system using the accessinformation; determining a system password of the remote informationhandling system using the access information; and validating the accesskey and the password in association with the initialization sequence.